RU2117050C1 - Device for monitoring redox processes in liquid slag bath - Google Patents

Abstract

FIELD: metallurgy; methods of iron direct production by its reduction from its oxides in liquid slag bath. SUBSTANCE: electrode-current collector is enclosed in water-cooled casing and immersed in layer of liquid slag. Length of part of electrode-current collector moved out of water-cooled casing and coming in contact with liquid slag amounts to 20-70 D, where D is diameter of electrode-current collector. The invention provides for insulation of electrode-current collector from ground, high-temperature oxidizing gas atmosphere, continuous measurement of potential difference between slag bath and ground and resistance of slag bath as a whole, which are directly connected with physicochemical processes occurring in unit of ROMELT of liquid phase reduction and unit operating conditions. EFFECT: provision of device of prolonged continuous operation for monitoring the process of liquid-phase reduction by variation of electrical parameters such as difference of potentials and resistance. 2 dwg, 2 tbl

Description

 The invention relates to the field of ferrous metallurgy, in particular to methods for the direct production of iron by its reduction from oxides in a liquid slag bath and can be used in non-ferrous metallurgy and the chemical industry.

 The literature describes devices designed to control physicochemical processes in liquid media by changing the electrical characteristics of these media (resistance, current, voltage), in which electrodes are used as sensitive elements [1]. In such devices, the current collector electrodes operate at room temperatures, less often at elevated temperatures, which significantly limits their scope.

 Also known is a device for monitoring the slag mode of converter smelting [2], comprising an electric signal generator, a closed magnetic circuit with windings, a comparison unit, an amplifier, a tuyere position indicator, a converter housing, a tuyere. In the process of purging the metal, foaming of the bath is observed, which leads to a change in the resistance of the tuyere - melt section and to a change in the resistance of the closed loop of the tuyere - ground - converter housing - melt - tuyere. This change is recorded by the device. The lance in this case is the current collector electrode.

 Of the known devices, the closest in technical essence to the claimed one is a device for controlling foaming of slag in a converter, including an electric circuit lance - bath - converter housing - "ground" - lance and a secondary device [3]. In this device, an element of the converter design, an oxygen lance, is used as the current collector electrode.

However, the analysis of the prototype reveals significant disadvantages, which are as follows:
control is carried out discretely, namely only in those periods of melting when the oxygen lance is in contact with a slag-metal emulsion;
the need to use complex instrumentation, primarily generators of sinusoidal oscillations, the magnetic circuits of which are located on a movable oxygen lance in conditions of elevated temperatures, vibration and aggressive gas environment;
the impossibility of reliable isolation of the oxygen lance from the earth and, as a consequence, the low electrical resistivity of the lance section is the earth.

the oxygen lance is only partially buried in the slag-metal emulsion, the rest of it is in the high-temperature gas phase, which has significant conductivity, which ultimately leads to a decrease in signal accuracy;
since the oxygen tuyere is a water-cooled structure, a skull layer is formed on its surface in the area of contact with the slag metal emulsion, which has a very significant electrical resistance that impedes the passage of the recorded signal along the entire circuit.

 The revealed shortcomings show that the fixed value of the EMF (potential difference) is a very small value (of the order of 10 mV) and can be essentially a thermoelectromotive force that arises at the junction of the magnetic cores and does not allow to unambiguously and reliably relate the change in this signal to changes in physicochemical processes in the pyrometallurgical unit and its slag modes.

 The aim of the invention is to increase the duration of the device, the implementation of continuous monitoring of the liquid phase recovery during the entire melting period by changing the electrical potential difference between the slag bath and the "ground" and by changing the electrical resistance of the slag bath as a whole.

 This goal is achieved by the fact that in the known device for controlling foaming of slag in the converter, including the lance electric circuit - converter bath - converter housing - "ground" - lance - secondary device, according to the invention, the electrode-current collector is made of refractory and inert with respect to aggressive slag melt of a material, such as tungsten, is isolated from the "earth" by placing it in a water-cooled enclosure and set out of it at a certain distance.

 In FIG. 1, 2 presents a diagram of the inventive device and its location on the unit.

 The design of the sensor housing is made of stainless steel pipes X18H9T2. The body is a pipe with a diameter of 70 mm and a wall thickness of 2.5 mm. Inside it there is a pipe 2, in which there is a tungsten electrode-current collector 3 with a copper wire 4 soldered to it with brass solder 4, isolated in turn from the walls of the tube 2 with ceramic beads. The end part of the body immersed in liquid slag is welded so that a small part (2 - 3 mm) of the tube 2 leaves the welded ball surface. Through the opposite part of the pipe 1, another pipe 5 inside it passes, intended for supplying cooling water to the housing. The end part of the sensor housing, from which the tube with the electrode and the copper conductor 2, the pipe for supplying cooling water 5 and the drain pipe 6 is welded.

 The sensor 7 is located on the ПЖВ 8 unit in the slag sump 9. The tungsten electrode-current collector is connected to the measuring instrument 11 through a shielded connecting cable 10. As a means of measurement, a commercially available device of the KSP-4 type is used, with a scale of 0 - 100 mV and a digital combination device Щ 301-1. The automatic device KSP-4 allows you to record the potential difference in the form of continuous recording on tape. If the values of the potential difference do not fit into the scale of the device, their values are measured by the device Щ 301-1 and applied to the tape. The electrical resistance is measured by the device Щ 301-1.

 The device operates as follows.

 The electrical signal generated by the slag medium is perceived by a part of the current collector 3, equal to L, is transmitted through it to the connecting wires 4 in the water-cooled housing 1, and the current collector electrode and wires are electrically isolated from the housing. Next, the signal is supplied to the measuring device.

 Thus, the proposed device consists of the following structural elements: a current collector electrode in a protective water-cooled housing that immerses the current collector electrode in liquid slag, leads it out of the case and prevents the contact of the current collector from the high-temperature oxidizing gas atmosphere and the electrically insulating electrode-current collector from "land"; secondary measuring device; shielded connecting cables.

But, since the casing is a water-cooled design, a skull is also formed on its part immersed in liquid slag, therefore, the current collector electrode must be exposed from the body at a certain distance L (cm), which depends on the diameter of the current collector electrode d (cm) and the thickness of the formed on the cooled surface of the skull plate L ₀ (cm). This distance is determined by the ratio
L = (20 - 70) • d
Where:
L is the length of the part of the current collector electrode exposed from the housing;
d is the diameter of the current collector electrode equal to 0.6 cm.

According to experimental results obtained in the course of multiple pilot industrial swimming trunks, it was found that the thickness of the resulting skull L ₀ ranges from 10 to 12 cm.

 If the current collector electrode is shorter than 20d from the housing, the resulting skull prevents the passage of the electrical signal through the device. If the current collector electrode is set to a distance greater than 70d from the housing, then under the influence of its own weight and high temperature of the slag, acquiring sufficient ductility, the part of the current collector in contact with the melt is thinned and detached from the rest.

 Comparative data on the time during which the process is monitored in a slag bath using the proposed device and the frequency of such control are given in table. one.

 As can be seen from the data table. 1, the inventive device allows you to continuously for a long time (time of the melt) to monitor processes in the slag bath.

 Example 1. On the unit ПЖВ lead smelting reduction of iron-containing raw materials of various types (sinter ore, converter sludge, scale, oxidized pellets and mixtures thereof). The main indicators of the device under these conditions are summarized in table. 2.

 As can be seen from the data in table. 2, reliable operation of the inventive device is achieved subject to the established limits.

 This device allows you to isolate the electrode-current collector from the "ground", continuously measure the electric potential difference between the slag bath and the "ground" and the resistance of the slag bath, which are directly related to the physicochemical processes that occur in the ПЖВ unit and its operating modes, on a running unit.

 Changing the operating mode of the device is carried out only by connecting a measuring device, or a potentiometer (KSP-4), or an ohmmeter (Щ 301-1).

 Thus, a device is implemented and used that allows controlling the process of liquid-phase recovery by changing the electric potential difference between the slag bath and the ground and the electrical resistance of the slag bath during operation of the unit. The device provides reliable isolation of the current collector electrode from the "earth", the oxidizing gas atmosphere, allows you to place the current collector electrode under a layer of liquid slag.

Claims (1)

 A device for monitoring redox processes in a liquid slag bath, including a current collector electrode and a measuring device, characterized in that it contains a closed hollow water-cooled housing with a tube, in which a current collector electrode of refractory material, for example tungsten, is electrically isolated from the tube , one end of the current collector electrode is connected to the measuring device, and the other part protrudes from the end of the housing by an amount equal to 20 - 70 diameters of the current collector electrode.

Images